| 1. | Drop size increases with lower spraying pressure and decreases with higher pressure.
|
| 2. | An increase in any of these properties will typically increase the drop size.
|
| 3. | The signal from the photodiodes is used to back-calculate a drop size distribution.
|
| 4. | Drop size data depend on many variables, and are always subject to interpretation.
|
| 5. | RSF provides a practical means for comparing various drop size distributions.
|
| 6. | Full cone nozzles have the largest drop size, followed by flat spray nozzles.
|
| 7. | Comparing drop size distributions from alternate nozzles can be confusing.
|
| 8. | The parameter indicates the uniformity of the drop size distribution.
|
| 9. | Flow rate has a direct effect on drop size.
|
| 10. | Spray angle has an inverse effect on drop size.
|
मोबाइल